Hardy inequalities for inverse square potentials with countable number of singularities

Abstract

The Hardy Inequality (HI) for potentials with countably many singularities of the form V=Σk∈ Z1|x-ak|2 is not a trivial issue. In principle, the more singular poles are, the less the Hardy constant is: it is well-known that in all the existing results about the HI with finite number of singularities the best constants converge to 0 with the number n of singularities going to infinity. In this note we provide an example of nontrivial HI in right cylinders of fixed radius R>0 in Rd, for a potential V defined above having the singularities \ak\k∈ Z uniformly distributed on the axis of the cylinders. For this example we prove that an upper bound for the Hardy constant is (d-2)2/4, the clasical Hardy constant in Rd corresponding to one singular potential. We also prove positive lower bounds of the Hardy constant which allow to deduce that the asymptotic behavior as R 0 of the Hardy constant coincides with (d-2)2/4. The proof of the main result lies on using a nice identity due to Allegretto and Huang (Theorems 1.1, 2.1 in reference [1]) for particularly well chosen test functions.